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Revealing structure and assembly cues for Arabidopsis root-inhabiting bacterial microbiota

生物 根际 拟南芥 放线菌门 植物 拟杆菌 蛋白质细菌 厚壁菌 细菌 拟南芥 生态学 16S核糖体RNA 基因 遗传学 生物化学 突变体
作者
Davide Bulgarelli,Matthias Rott,Klaus Schlaeppi,Emiel Ver Loren van Themaat,Nahal Brocke‐Ahmadinejad,Federica Assenza,Philipp Rauf,Bruno Hüettel,Richard Reinhardt,Elmon Schmelzer,Joerg Peplies,Frank Oliver Gloeckner,Rudolf Amann,Thilo Eickhorst,Paul Schulze‐Lefert
出处
期刊:Nature [Nature Portfolio]
卷期号:488 (7409): 91-95 被引量:2514
标识
DOI:10.1038/nature11336
摘要

The plant root defines the interface between a multicellular eukaryote and soil, one of the richest microbial ecosystems on Earth. Notably, soil bacteria are able to multiply inside roots as benign endophytes and modulate plant growth and development, with implications ranging from enhanced crop productivity to phytoremediation. Endophytic colonization represents an apparent paradox of plant innate immunity because plant cells can detect an array of microbe-associated molecular patterns (also known as MAMPs) to initiate immune responses to terminate microbial multiplication. Several studies attempted to describe the structure of bacterial root endophytes; however, different sampling protocols and low-resolution profiling methods make it difficult to infer general principles. Here we describe methodology to characterize and compare soil- and root-inhabiting bacterial communities, which reveals not only a function for metabolically active plant cells but also for inert cell-wall features in the selection of soil bacteria for host colonization. We show that the roots of Arabidopsis thaliana, grown in different natural soils under controlled environmental conditions, are preferentially colonized by Proteobacteria, Bacteroidetes and Actinobacteria, and each bacterial phylum is represented by a dominating class or family. Soil type defines the composition of root-inhabiting bacterial communities and host genotype determines their ribotype profiles to a limited extent. The identification of soil-type-specific members within the root-inhabiting assemblies supports our conclusion that these represent soil-derived root endophytes. Surprisingly, plant cell-wall features of other tested plant species seem to provide a sufficient cue for the assembly of approximately 40% of the Arabidopsis bacterial root-inhabiting microbiota, with a bias for Betaproteobacteria. Thus, this root sub-community may not be Arabidopsis-specific but saprophytic bacteria that would naturally be found on any plant root or plant debris in the tested soils. By contrast, colonization of Arabidopsis roots by members of the Actinobacteria depends on other cues from metabolically active host cells.
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